光助非均相Fenton体系用于活性艳红X-3B脱色的研究

在光助非均相Fenton体系中,采用一种稀土铈铁复合(CeFe)材料作为催化剂,并探讨了该反应体系在不同条件下活性艳红X3B的脱色效果。结果表明:该光助非均相Fenton反应在前10min符合一级反应动力学。采用掺杂0.08mol/L铈制备的CeFe材料对活性艳红X3B具有最佳的脱色效果,在pH3.0、H2O234mg/L、UV253.7nm条件下,10min内该反应体系速率常数k达到0.2456min-1,明显高于相同条件下的UV/H2O2(0.0446min-1)、UV/CeFe(0.0306min-1)体系的速率常数。     

Optimization of photo-Fenton process parameters on carbofuran degradation using central composite design

Carbofuran, one of the most toxic and biorefractory carbamate compounds, is widely used in insecticides in Taiwan (9-18% of total insecticides production per year). In the present study, a central composite design experiment was used to study the effect of photo-Fenton treatment on carbofuran solution and to optimize the process variables such as carbofuran concentration (1-100 mg L(-1)), H(2)O(2) dosage rate (0.25-6 mg L(-1) min(-1)) and Fe(3+) dosage (1-50 mg L(-1)), which influenced the efficiency of carbofuran degradation and mineralization. The results indicated that all the variables investigated in this study had significant roles in the degradation and mineralization of carbofuran in solution. The carbofuran degradation and mineralization efficiencies were increased with increase in H(2)O(2) dosage rate and Fe(3+) dosage, and with decrease in carbofuran concentration. Furthermore, optimum values of both H(2)O(2) dosage rate and Fe(3+) dosage were found to shift to higher values as carbofuran concentration increased. Based on the model obtained in this study, optimum H(2)O(2) dosage rate and Fe(3+) dosage were found to be 4 mg L(-1) min(-1) and 20 mg L(-1), respectively, for 51 mg L(-1) of carbofuran concentration. Under these conditions, carbofuran was completely removed within 30 min and coupled with 78% mineralization at the end of experiment.     

TiO2纳米粒子光催化降解室内挥发性有机污染物苯的研究

利用溶胶凝胶法制备了纳米TiO2粒子。通过X射线粉末衍射分析，晶相为锐钛矿和金红石混晶，晶粒尺寸约为13nm。以苯为目标污染物，研究了不同的苯初始浓度、氧气、催化剂的用量以及光源强度和波长对光催化效率的影响。结果发现，氧气可以提高光催化降解苯的效率；无论在有氧条件还是无氧条件下，随着苯初始浓度的降低，光催化效率升高；光源的强度和波长对光催化效率具有影响；对于光催化降解0．70μg／cm^3苯而言，最佳的TiO2投入量为0.1g。     

TiO2纳米粒子光催化降解室内挥发性有机污染物苯的研究

利用溶胶凝胶法制备了纳米TiO2粒子.通过X射线粉末衍射分析,晶相为锐钛矿和金红石混晶,晶粒尺寸约为13 nm.以苯为目标污染物,研究了不同的苯初始浓度、氧气、催化剂的用量以及光源强度和波长对光催化效率的影响.结果发现,氧气可以提高光催化降解苯的效率;无论在有氧条件还是无氧条件下,随着苯初始浓度的降低,光催化效率升高;光源的强度和波长对光催化效率具有影响;对于光催化降解0.70μg/cm3苯而言,最佳的TiO2投入量为0.1g.     

TiO2光催化氧化脱除模拟烟气中的NOx

采用P25纳米TiO2为催化剂,对NOx浓度360 mg/m3的模拟烟气进行了光催化氧化实验研究,以期为此种方法在电厂烟气脱硝方面的应用提供依据。经SEM、XRD等表征手段,探讨了催化剂晶型尺寸对光催化的作用。实验考察了光催化反应过程规律以及负载量、光照度、NO初始浓度、O2含量、相对湿度和停留时间对光催化氧化效率的影响。结果表明,光催化反应是瞬态到稳态的过程,其催化效率与上述影响因子有密切关系。实验最优条件下NOx的脱除率为46%,但只需适当提高氧化效能,便能达到理想的效果。     

Hydrogen sulfide gas treatment by a chemical-biological process: chemical absorption and biological oxidation steps

In order to remove high concentrations of hydrogen sulfide (H2S) gas from anaerobic wastewater treatments in livestock farming, a novel process was evaluated for H2S gas abatement involving the combination of chemical absorption and biological oxidation processes. In this study, the extensive experiments evaluating the removal efficiency, capacity, and removal characteristics of H2S gas by the chemical absorption reactor were conducted in a continuous operation. In addition, the effects of initial Fe2+ concentrations, pH, and glucose concentrations on Fe2+ oxidation by Thiobacillus ferrooxidans CP9 were also examined. The results showed that the chemical process exhibited high removal efficiencies with H2S concentrations up to 300 ppm, and nearly no acclimation time was required. The limitation of mass-transfer was verified as the rate-determining step in the chemical reaction through model validation. The Fe2+ production rate was clearly affected by the inlet gas concentration as well as flow rate and a prediction equation of ferrous production was established. The optimal operating conditions for the biological oxidation process were below pH 2.3 and 35 degrees C in which more than 90% Fe3+ formation ratio was achieved. Interestingly, the optimal glucose concentration in the medium was 0.1%, which favored Fe2+ oxidation and the growth of T. ferrooxidans CP9.     

Combined photo-Fenton and biological oxidation for pesticide degradation: effect of photo-treated intermediates on biodegradation kinetics

Biodegradability of a partially photo-oxidized pesticide mixture is demonstrated and the effect of photo-Fenton treatment time on growth and substrate consumption of the bacteria Pseudomonas putida CECT 324 is shown. Four commercial pesticides, laition, metasystox, sevnol and ultracid, usually employed in citric orchards in eastern Spain, were chosen for these experiments. The active ingredients are, respectively, dimethoate, oxydemeton-methyl, carbaryl and methidathion. Judging by biomass measurements, dissolved organic carbon measurements and biodegradation efficiency, it may be concluded that 90min相似文献   

光催化氧化处理有机废水

介绍了光催化氧化法的原理,对光催化氧化法处理有机废水的可行性进行了试验,探讨了ＣＯＤ随反应时间的变化规律及催化剂用量,温度、浓度的影响。试验表明,光催化氧化可降解象洗涤剂这样难降解的有机物,反应１２０ｍｉｎＣＯＤ去除率可达５０％以上。     

微波辅助光催化降解阿特拉津的表观动力学

以内分泌干扰物阿特拉津为目标物,建立循环流化床微波辅助光催化体系,研究其微波辅助光催化降解规律。表观动力学研究发现,当阿特拉津初始浓度较低时,其在微波辅助光催化体系中的降解符合表观一级反应动力学特征。降解反应速率常数与阿特拉津初始浓度呈负线性相关,与紫外光强呈正线性相关,与催化剂浓度呈抛物线性相关。表观反应速率常数kobs=3.95×10-4c-0.27030I1.2224W0.3283,该模型计算值与实验值吻合较好,平均相对偏差仅为0.5%,可用于预测微波辅助光催化降解低浓度有机污染物的反应规律。     

微气泡臭氧化强化吸收-氧化处理高浓度乙酸乙酯气体

采用微气泡臭氧化处理模拟高浓度乙酸乙酯气体,考察了强化吸收与氧化去除体系的性能、反应动力学及氧化反应的过程。结果表明,微气泡臭氧化能明显提高易溶性乙酸乙酯气体吸收-氧化处理的效率,乙酸乙酯气体整体平均去除率高于96%,氧化矿化率可达到90.22%,高于普通气泡臭氧化过程的63.25%和47.15%。微气泡臭氧化可提高臭氧利用效率,累积臭氧利用率可达到85.5%,高于普通气泡中的58.6%;同时,还可强化·OH氧化反应,提高臭氧化反应效率,反应中臭氧消耗量与乙酸乙酯TOC去除量比值(R)仅为1.04 mg∙mg⁻¹,明显低于普通气泡臭氧化过程的1.53 mg∙mg⁻¹。微气泡臭氧化处理中,乙酸乙酯传质吸收和氧化矿化反应均符合表观零级动力学方程,氧化矿化速率与传质速率基本平衡。以上结果表明,微气泡臭氧化处理可实现长期稳定高效处理乙酸乙酯气体。     

Photochemical and photocatalytic degradation of gaseous toluene using short-wavelength UV irradiation with TiO2 catalyst: comparison of three UV sources

The feasibility of the use of short-wavelength UV (254+185 nm) irradiation and TiO2 catalyst for photodegradation of gaseous toluene was evaluated. It was clear that the use of TiO2 under 254+185 nm light irradiation significantly enhanced the photodegradation of toluene relative to UV alone, owed to the combined effect of photochemical oxidation in the gas phase and photocatalytic oxidation on TiO2. The photodegradation with 254+185 nm light irradiation was compared with other UV wavelengths (365 nm (black light blue lamp) and 254 nm (germicidal UV lamp)). The highest conversion and mineralization were obtained with the 254+185 nm light. Moreover, high conversions were achieved even at high initial concentrations of toluene. Catalyst deactivation was also prevented with the 254+185 nm light. Regeneration experiments with the deactivated catalyst under different conditions revealed that reactive oxygen species played an important role in preventing catalyst deactivation by decomposing effectively the less reactive carbon deposits on the TiO2 catalyst. Simultaneous elimination of photogenerated excess ozone and residual organic compounds was accomplished by using a MnO2 ozone-decomposition catalyst to form reactive species for destruction of the organic compounds.     

Fenton试剂氧化对硝基酚中氧化还原电位的变化规律

考察了Fenton试剂氧化对硝基苯酚(PNP)过程中氧化还原电位(ORP)的变化规律.结果表明:(1)当pH为3、H2O2投加量为3 mmol/L、Fe2+投加量为0.3 mmol/L时,废水中PNP在5.0 min时降到5 mg/L左右,去除率达95%;废水可生化性得到有效改善(BOD5/COD由最初的0.073升至...     

Fenton氧化法降解丙烯酸废水的研究

利用废铁屑与H₂O₂形成的Fenton氧化反应来降解工业丙烯酸废水中的丙烯酸。在间歇反应器中,系统地考察了反应时间、H2O2浓度、液固比(废水质量∶固体质量)和反应温度对丙烯酸的降解率的影响,优选了工艺条件。在连续固定床反应器中进行了对比实验,以考察固液接触状态的影响及系统的稳定性。结果表明,废铁屑与H₂O₂构成的Fenton体系能有效地降解废水中的丙烯酸。在间歇工况下,适宜的条件为,液固比40∶1,温度20～25℃,H₂O₂浓度800 mg/L ,反应时间35 min,在此条件下,丙烯酸的降解率可达到95%以上。对比实验表明,固液接触状态对降解效果的影响不大,铁屑的性能稳定,在连续93 h的稳定性实验中,丙烯酸的降解率保持在90%左右。     

Efficient degradation of rhodamine B using modified graphite felt gas diffusion electrode by electro-Fenton process

The electro-Fenton (EF) process treatment of 0.1-M (rhodamine B) RhB solution was studied with different graphite cathode materials, and graphite felt (GF) was selected as a promising material in further investigation. Then, the degradation performances of gas diffusion electrode (GDE) and graphite felt (GF) were compared, and GDE was confirmed to be more efficient in RhB removal. The operational parameters such as Fe²⁺ dosage and current density were optimized, and comparison among different modified methods—polytetrafluoroethylene-carbon black (PTFE-CB), polytetrafluoroethylene-carbon nanotube (PTFE-CNT), electrodeposition-CB, and electrodeposition-CNT—showed 98.49 % RhB removal by PTFE-CB-modified cathode in 0.05 M Na₂SO₄ at a current density of 50 A/m² and an air flow rate of 1 L/min after 20 min. Meanwhile, after cathode modified by PTFE-CB, the mineralization efficiency and mineralization current efficiency performed absolutely better than the pristine one. Cyclic voltammograms, SEM images, contact angles, and BET surface area were carried out to demonstrate stronger current responses and higher hydrophilicity of GF after modified. The value of biochemical oxygen demand/chemical oxygen demand (BOD₅/COD) increased from 0.049 to 0.331 after 90-min treatment, suggesting the solution was biodegradable, and the modified cathode was confirmed to be stable after ten circle runs. Finally, a proposed degradation pathway of RhB was put forward.     

隔膜电解海水氧化耦合吸收脱硫脱硝净化船舶尾气技术

采用隔膜电解技术对海水进行改性,生成的氧化液和碱性液分别喷淋进入氧化洗涤塔和碱式吸收塔,通过耦合的二段式反应研究脱除模拟船舶尾气中NO与SO2的性能,实验详细考察了NO与SO2的气体流量与初始浓度、海水电解时间和氧化液有效氯浓度对SO2和NO脱除效率的影响。结果表明:隔膜电解海水能够高效地脱除船舶尾气中的SO2和NO;SO2脱除效率高,在实验条件范围内几乎不受各因素的影响;NO脱除效率随NO初始浓度、海水电解时间、氧化液有效氯浓度的提升而增大,随SO2初始浓度、气体流量的提升而减小。当气体流量为1 m3·h-1,初始SO2、NO浓度分别为600 mL·m-3和900 mL·m-3,海水电解时间为60 min,氧化液有效氯浓度为540 mg·L-1时,模拟船舶尾气中SO2和NO的去除效率可以分别达到98.6%和84.4%。     

UV-Fenton光催化法深度处理紫胶漂白废水

采用UV-Fenton联合的方法处理紫胶漂白废水,单因素实验研究了H2O2用量、FeSO4用量、反应时间和初始pH值对紫胶漂白废水降解的影响,并通过数学回归模型和响应曲面法优化得到UV-Fenton深度处理紫胶漂白废水的最优条件：初始pH值5.0,H2O2用量49 g·L-1、FeSO4用量2.6 g·L-1、反应时间为4 h。经最优工艺条件深度处理后的紫胶漂白废水COD、BOD5、悬浮物、色度、总氮和总磷分别降低至48 mg·L-1、32 mg·L-1、27.3 mg·L-1、24 NTU、0.027 mg·L-1、0.021 mg·L-1,除BOD5稍高外,其余指标均达到污水综合排放一级标准。在最优条件下,以紫胶漂白废水COD值和COD去除率为指标的降解动力学模型可分别表示为：lny=0.034 98+0.001 85x+6.898×10-6x2和z=95.36-92.78×0.970 6t。由动力学方程可看出,废水COD值在反应开始的前2 h内,降低幅度接近90%,且以反应开始时最为剧烈,随着反应的进行,反应剧烈程度迅速减弱。     

填料塔-微乳液增溶吸收法净化甲苯废气

利用甲苯可以和非离子表面活性剂及相应助表面活性剂水溶液形成微乳液,从而增大甲苯表观溶解度的特性,吸收净化甲苯废气。采用微乳液作为吸收剂的填料塔治理甲苯废气,探讨了吸收剂组成、表面活性剂种类及浓度、喷淋量、甲苯浓度负荷和助表面活性剂的加入及其种类对甲苯去除率的影响。结果表明,微乳液吸收处理甲苯废气具有显著的效果,最大去除率达41%;经过体系筛选采用Tween-20作为表面活性剂,此时最适喷淋量为40 L/h(液气比为1∶5),且随着甲苯浓度负荷的升高,甲苯去除率随之增加;添加助表面活性剂可以不同程度地提高甲苯的去除率,Tween-20/正丁胺/甲苯/水微乳体系为吸收甲苯的最佳体系,此时最高去除率可达65%。     

Dye house wastewater treatment through advanced oxidation process using Cu-exchanged Y zeolite: a heterogeneous catalytic approach

Catalytic wet hydrogen peroxide oxidation of an anionic dye has been explored in this study. Copper(II) complex of NN'-ethylene bis(salicylidene-aminato) (salenH2) has been encapsulated in super cages of zeolite-Y by flexible ligand method. The catalyst has been characterized by Fourier transforms infra red spectroscopy, X-ray powder diffractograms, Thermo-gravimetric and differential thermal analysis and nitrogen adsorption studies. The effects of various parameters such as pH, catalyst and hydrogen peroxide concentration on the oxidation of dye were studied. The results indicate that complete removal of color has been obtained after a period of less than 1h at 60 degrees C, 0.175M H2O2 and 0.3g l(-1) catalyst. More than 95% dye removal has been achieved using this catalyst for commercial effluent. These studies indicate that copper salen complex encapsulated in zeolite framework is a potential heterogeneous catalyst for removal of color from wastewaters.     

烟气脱硫过程锰催化氧化亚硫酸钙的研究

利用直径280 mm、高320 mm的间歇式搅拌槽,在MnSO4加入浓度为0～0.05 mol/L的情况下,对亚硫酸钙悬浮液进行了催化氧化实验研究.实验结果表明,锰离子的加入会改变亚硫酸钙的氧化机理及氧化过程,表现为终点氧化率和氧化速率的变化.当Mn2 浓度为0.05 mol/L时,亚硫酸钙的终点氧化率比未加入Mn2 时高30%;此外,与非催化反应过程相比,Mn2 的加入能使亚硫酸钙在一个更宽的浓度范围内(0.02～0.073 mol/L)和一个更宽的时间范围内(20～100 min)均保持较高的氧化速率水平.     

Mineralization of dinitrotoluenes and trinitrotoluene of spent acid in toluene nitration process by Fenton oxidation

Fenton's reagent, UV/H2O2 and UV/Fenton's reagent were employed to mineralize dinitrotoluene (DNT) isomers and 2,4,6-trinitrotoluene (TNT) of spent acid in toluene nitration process. The bench-scale experiments were conducted to elucidate the influence of various operating variables on the performance of removal of total organic compounds (TOC) from spent acid, including reaction temperature, concentration of ferrous ion and H2O2 dosage. It is remarkable that organic compounds were completely mineralized by Fenton oxidation, of which removal efficiency is superior to that of UV/H2O2. Nevertheless, it makes slight difference between Fenton oxidation and UV/Fenton oxidation. According to the spectra identified by gas chromatograph/mass spectrometer (GC/MS), it is proposed that oxidative degradation of DNT isomers leads to o-, m-, p-mononitrotoluene (MNT) and 1,3-dinitrobenzene respectively. Besides, the oxidation of 2,4,6-TNT gives the 1,3,5-trinitrobenzene intermediate. Apparently, Fenton oxidation is promising for purification of spent acid industrially.